AA-55 ZOOM RigExpert · AA-55 ZOOM Antenna and Cable Analyzer! We did our best to make it powerful...
Transcript of AA-55 ZOOM RigExpert · AA-55 ZOOM Antenna and Cable Analyzer! We did our best to make it powerful...
AA-55 ZOOMRigExpert®
User’s manual
Antenna and cable analyzer
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IntroductionOperating the AA-55 ZOOM
First time useMain menuMultifunctional keysConnecting to your antennaSWR chartChart ZOOMData screenFrequency and range entryReturn loss chartR,X chartSmith chartMemory operationSWR modeDisplay all parametersMultiSWR mode
ApplicationsAntennasCoaxial linesMeasurement of other elements
AnnexesAnnex 1: SpecificationsAnnex 2: PrecautionsAnnex 3: Tools menuAnnex 4: Setup menuAnnex 5: Calibration
Table of contents
User’s manual
Thank you for purchasing a RigExpert AA-55 ZOOM Antenna and Cable Analyzer! We did our best to make it powerful yet easy to use.
The analyzer is designed for measuring SWR (standing wave ratio), return loss, cable loss, as well as other parameters of cable and antenna systems in the range of 60 kHz to 55 MHz. A built-in ZOOM capability makes graphical measurements especially effective.
The following tasks are easily accomplished by using this analyzer:
• Rapid check-out of an antenna• Tuning an antenna to resonance• Comparing characteristics of an antenna
before and after specific event (rain, hurricane, etc.)
• Making coaxial stubs or measuring their parameters
• Cable testing, measuring cable loss and characteristic impedance
• Measuring capacitance or inductance of reactive loads
1. Antenna connector2. Liquid crystal display3. Keypad4. USB connector
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Introduction1
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RigExpert AA-55 ZOOM
Main menu
The Main menu acts as a starting point from where different tasks may be launched.
Use (Cursor up) and (Cursor down) keys to scroll through the menu, then press (OK) to select an item.For your convenience, a battery indicator is shown at the top-left corner of the screen. This indicator is replaced with a USB icon when the analyzer is connected to your computer.
The analyzer will be turned off automatically if not in use for too long.
First time use Please insert two AA batteries (only alkaline or Ni-MH ones) into the battery compartment of the analyzer, watching the polarity. Instead, you may power it from a spare USB port of your computer by using a conventional USB cable.
Press the (Power) key located at the bottom-right corner of the keypad to turn on the analyzer. After displaying the initial message (showing a firmware version and a serial number of the instrument), a Main menu appears on the screen.
You may use hot keys for the quick access to certain tasks. For instance, press
the (SWR chart) button to open the SWR chart screen immediately.
Do not use Li-ion or other batteries with voltage more than 1.5 V.
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Operating the AA-55 ZOOM
User’s manual
Multifunctional keys
Most keys on the analyzer’s keypad perform several functions.
For instance, numbers (1) are used to enter frequency and other numerical parameters. Main functions (2) provide quick access to most common tasks. Alternative functions (3) are executed if the user holds the (Functional) key. For the convenience, alternative functions are marked with yellow.
You may press the (Help) key to open a help screen listing all active hot keys.
Connecting to your antennaPlug the cable to your analyzer’s antenna connector, and then tighten the rotating sleeve. The rest of the connector, as well as the cable, should remain stationary.
If you twist other parts of the connector when tightening or loosening, damage may easily occur. Twisting is not allowed by design of the UHF-connector.
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RigExpert AA-55 ZOOM
Chart ZOOM
Use the arrow keys to increase or decrease the center frequency or the scanning range.
Watch the chart zooming in or out, or changing its position. Use the (Functional
key) and (Cursor up) or (Cursor down) key combination to zoom the vertical
scale of the chart.
Do not forget to press the (OK) key for the new measurement to start.
SWR chart
Once your antenna is connected to the analyzer, it is time to measure its characteristics. Press the (SWR chart) key to open the SWR chart screen, then press (OK) to start a new measurement.
A few moments later, the result will be displayed on the analyzer’s screen.
Press the + key combination to run a continuous sweep.
A small triangle at the bottom of the chart corresponds to a point at which the SWR reaches its minimum.
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User’s manual
Data screen
The data screen is available in all chart modes. Press the (Data) key to display various parameters of a load at cursor.
Frequencyand range entry
To enter the center frequency or the sweep range, press the (Frequency, Range) key.
Use cursor keys to navigate, or the to keys to enter values. Do not forget to press the (OK) key to apply.
Press (Up) or (Down) cursor keys while holding
the (Functional) key to quickly choose a radio amateur band.
Return loss chartThe return loss (RL) chart, which is very similar to the SWR chart, is activated by pressing the (Functional key) and (RL chart) key combination in the Main menu.
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RigExpert AA-55 ZOOM
R,X chart
Press the (R,X chart) key in the Main menu to access the R,X chart mode.
Positive values of reactance (X) correspond to inductive load, while negative values correspond to capacitive load.
The chart will display R and X for series or parallel models of a load. Press (Functional key) and to switch between these models.
Smith chart
The (Smith chart) key opens a screen where the reflection coefficient is plotted on the Smith chart.
For a list of hot keys, press the (Help) key, as usual.
A small marker is used to indicate the center frequency.
The marker at the bottom of the screen shows a resonant frequency closest to the center of the scan.
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User’s manual
Memory operation
Press the (Save) key to save the chart into one of 10 available memory slots.
To retrieve your readings from the memory, press then (Load) key, select a memory slot number and press
(OK).
SWR mode
To watch the SWR at a single frequency, press the (SWR) key.
Do not forget to press the (OK) key to start or stop the measurement. Change the frequency with (Left) or (Right) cursor keys, or press the (Frequency) key to enter a new frequency.
The SWR icon in the top-left corner flashes when the measurement is performed.
To rename any existing memory slot, press (Functional key)
and (Edit) key combination.
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RigExpert AA-55 ZOOM
Display all parameters
To display various parameters of a load on a single screen, press the (All) key.
Do not be confused by negative values of L or C. This can be useful for experienced users.
This screen displays values for series as well as parallel models of impedance of a load.
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• In the series model, impedance is expressed as resistance and reactance connected in series:
• In the parallel model, impedance is expressed as resistance and reactance connected in parallel:
R
XZ = R + jX R XZ = R ||+ jX
User’s manual
MultiSWR mode
Press the (Functional key) and (Multi) key combination to see the SWR at up to five different frequencies. This mode may be useful for tuning multi-band antennas.
Use (Up) and (Down) cursor keys to select a frequency to be set or changed,
then press the (Frequency) key to enter a new value. Do not forget to press the
(OK) key to start the measurement.
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RigExpert AA-55 ZOOM
Antennas
Checking the antenna
It is a good idea to check an antenna before connecting it to the receiving or transmitting equipment. The SWR chart mode is good for this purpose.
The picture on the left shows the SWR chart of a HF antenna. The operating frequency is 14.3 MHz. The SWR at this frequency is about 1.3, which is acceptable.
The next screen shot shows SWR chart of another antenna. The actual resonant frequency is about 14.65 MHz, which is too far from the desired one. The SWR at 14.3 MHz is 2.8, which is not acceptable in most cases.
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Applications
User’s manual
Adjusting the antenna
When the measurement diagnoses that the antenna is off the desired frequency, the analyzer can help in adjusting it. Physical dimensions of a simple antenna (such as a dipole) can be adjusted knowing the actual resonant frequency and the desired one. Other types of antennas may contain more than one element to adjust (including coils, filters, etc.), so this method will not work. Instead, you may use the SWR mode, the All parameters mode or the Smith chart mode to continuously see the results while adjusting various parameters of the antenna.
For multi-band antennas, use the MultiSWR mode. You can easily see how changing one of the adjustment elements (trimming capacitor, coil, or physical length of an aerial) affects SWR at up to five different frequencies.
Coaxial lines
Open- and short-circuited cables
The pictures on the right show R and X charts for a piece of cable with open- and short-circuited far end. A resonant frequency is a point at which X (reactance) equals to zero:
• In the open-circuited case, resonant frequencies correspond to (left to right) 1/4, 3/4, 5/4, etc. of the wavelength in this cable;
• For the short-circuited cable, these points are located at 1/2, 1, 3/2, etc. of the wavelength.
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RigExpert AA-55 ZOOM
Cable length measurement
Resonant frequencies of a cable depend on its length as well as on the velocity factor.
A velocity factor is a parameter which characterizes the slowdown of the speed of the wave in the cable compared to vacuum. The speed of wave (or light) in vacuum is known as the electromagnetic constant: c=299,792,458 meters (or 983,571,056 feet) per second.
Each type of cable has different velocity factor: for instance, for RG-58 it is 0.66. Notice that this parameter may vary depending on the manufacturing process and materials the cable is made of.
To measure the physical length of a cable,
1. Locate a resonant frequency by using the R,X chart.
Example:
The 1/4-wave resonant frequency of a piece of open-circuited RG-58 cable is 4100 kHz.
2. Knowing the electromagnetic constant and the velocity factor of the particular type of cable, find the speed of electromagnetic wave in this cable.
299,792,458 × 0.66 = 197,863,022 meters per second
- or -
983,571,056 × 0.66 = 649,156,897 feet per second
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User’s manual
Velocity factor measurement
For a known resonant frequency and physical length of a cable, the actual value of the velocity factor can be easily measured:
3. Calculate the physical length of the cable by dividing the above speed by the resonant frequency (in Hz) and multiplying the result by the number which corresponds to the location of this resonant frequency (1/4, 1/2, 3/4, 1, 5/4, etc.)
197,863,022 / 4,100,000 ×(1/4) = 12.06 meters
- or -
649,156,897 / 4,100,000 ×(1/4) = 39.58 feet
3. Finally, find the velocity factor. Just divide the above speed by the electromagnetic constant.
Example:
5 meters (16.4 feet) of open-circuited cable. Resonant frequency is 9400 kHz at the 1/4-wave point.
2. Calculate the speed of electromagnetic wave in this cable. Divide the length by 1/4, 1/2, 3/4, etc. (depending on the location of the resonant frequency), then multiply by the resonant frequency (in Hz).
5 / (1/4) × 9,400,000 = 188,000,000 meters per second
- or -
16.4 / (1/4) × 9,400,000 = 616,640,000 feet per second
1. Locate a resonant frequency as described above.
188,000,000 / 299,792,458 = 0.63
- or -
616,640,000 / 983,571,056 = 0.63
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RigExpert AA-55 ZOOM
Cable fault location
To locate the position of a probable fault in a cable, just use the same method as when measuring its length. Watch the behavior of the reactive component (X) near the zero frequency:
• If the value of X is moving from –∞ to 0, the cable is open-circuited:
• If the value of X is moving from 0 to +∞ , the cable is short-circuited:
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User’s manual
Making 1/4-λ, 1/2-λ and other coaxial stubs
2. Cut a piece of cable slightly longer than this value. Connect it to the analyzer. The cable must be open-circuited at the far end for 1/4-λ, 3/4-λ, etc. stubs, and short-circuited for 1/2-λ, λ, 3/2-λ, etc. ones.
A piece of 1.85 m (6.07 ft) was cut. The margin is 10 cm (0.33 ft). The cable is open-circuited at the far end.
3. Switch the analyzer to the All parameters measurement mode. Set the frequency the stub is designed for.
28,200 kHz was set.
4. Cut little pieces (1/10 to 1/5 of the margin) from the far end of the cable until the X value falls to zero (or changes its sign). Do not forget to restore the open-circuit, if needed.
11 cm (0.36 ft) were cut off.
1. Calculate the physical length. Divide the electromagnetic constant by the required frequency (in Hz). Multiply the result by the velocity factor of the cable, then multiply by the desired ratio (in respect to λ).
299,792,458 / 28,200,000 × 0.66 × (1/4) = 1.75 meters
- or -
983,571,056 / 28,200,000 × 0.66 × (1/4) = 5.75 feet
Pieces of cable of certain electrical length are often used as components of baluns (balancing units), transmission line transformers or delay lines. To make a stub of the predetermined electrical length,
Example:
1/4-λ stub for 28.2 MHz, cable is RG-58 (velocity factor is 0.66)
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RigExpert AA-55 ZOOM
Measuring the characteristic impedance
The characteristic impedance is one of the main parameters of any coaxial cable. Usually, its value is printed on the cable by the manufacturer. However, in certain cases the exact value of the characteristic impedance is unknown or is in question.
To measure the characteristic impedance of a cable,
1. Connect a non-inductive resistor to the far end of the cable. The exact value of this resistor is not important. However, it is recommended to use 50 to 100 Ohm resistors.
Example 1: 50-Ohm cable with 100 Ohm resistor at the far end.
Example 2: Unknown cable with 100 Ohm resistor at the far end.
2. Enter the R,X chart mode and make measurement in a reasonably large frequency range (for instance, 0 to 55 MHz).
Example 1:
50-Ohm cable
Example 2:
Unknown cable
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User’s manual
3. Changing the display range and performing additional scans, find a frequency where R (resistance) reaches its maximum, and another frequency with minimum. At these points, X (reactance) will cross the zero line.
Example 1: 3.85 MHz – min., 8.25 MHz – max.
Example 2: 5.50 MHz – max., 2.75MHz – min.
4. Switch to the Data at cursor screen by pressing the (Data) key and find values of R at previously found frequencies.
Example 1: 28.4 Ohm – min., 88.4 Ohm – max.
Example 2: 90.0 Ohm – max, 61.3 Ohm – min.
5. Calculate the square root of the product of these two values.
Example 1: square root of (28.4 × 88.4) = 50.1 Ohm
Example 2: square root of (90.0 × 61.3) = 74.3 Ohm
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RigExpert AA-55 ZOOM
Measurement of other elementsAlthough RigExpert AA-55 ZOOM is designed for use with antennas and antenna-feeder paths, it may be successfully used to measure parameters of other RF elements.
Capacitors and inductors
The analyzer can measure capacitance from a few pF to about 0.1 μF as well as inductance from a few nH to about 100 μH. Since measuring of capacitance and inductance is not a main purpose of RigExpert analyzers, the user will have to gain some experience in such measurements.
Be sure to place the capacitor or the inductor as close as possible to the RF connector of the analyzer.
1. Enter the R,X chart mode and select a reasonably large scanning range. Perform a scan.
Example 1:
Unknown capacitor
Example 2:
Unknown inductor
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User’s manual
3. Switch to the Data at cursor screen by pressing the key and read the value of capacitance or inductance.
Example 1:
Unknown capacitor
Example 2:
Unknown inductor
2. By using left and right arrow keys, scroll to the frequency where X is -25…-100 Ohm for capacitors or 25…100 Ohm for inductors. Change the scanning range and perform additional scans, if needed.
Transformers
RigExpert analyzers can also be used for checking RF transformers. Connect a 50 Ohm resistor to the secondary coil (for 1:1 transformers) and use SWR chart, R,X chart or Smith chart modes to check the frequency response of the transformer. Similarly, use resistors with other values for non-1:1 transformers.
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RigExpert AA-55 ZOOM
Traps
A trap is usually a resonant L-C network used in multi-band antennas. By using a simple one-turn wire coil, a resonant frequency of a trap may be measured.
Example:
A coaxial trap constructed of 5 turns of TV cable (coil diameter is 6 cm) was measured.
A one-turn coil (about 10 cm in diameter) connected to the analyzer was placed, co-axially, a few centimeters away from the measured trap. The SWR chart shows a visible dip near 17.4 MHz, which is a resonant frequency of the trap.
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User’s manual
Frequency range: 0.06 to 55 MHz
Frequency entry: 1 kHz resolution
Measurement for 25, 50, 75 and 100-Ohm systems
SWR measurement range: • 1 to 100 in numerical modes• 1 to 10 in chart modes
SWR display: numerical or analog indicator
R and X range: • 0…10000, -10000…10000 Ohm
in numerical modes• 0…1000, -1000…1000 Ohm in chart
modes
Display modes:• SWR at single or multiple frequencies• SWR, return loss, R, X, Z, L, C
at single frequency• SWR chart, 100 points• R, X chart, 100 points• Smith chart, 100 points• Return loss chart, 100 points• Cable tools (loss and characteristic
impedance)
Optional open-short-load calibration.
RF output: • Connector type: UHF (SO-239)• Output signal shape: square, 0.06 to
55 MHz• Output power: +13 dBm (at 50 Ohm
load)
Power:• Two 1.5V alkaline batteries, type AA• Two 1.2V Ni-MH batteries, type AA• Max. 4 hours of continuous
measurement, max. 2 days in stand-by mode when fully charged batteries are used
• When the analyzer is connected to a PC or a DC adapter with USB socket, it takes power from these sources
Interface:• 320×240 color TFT display• 6x3 keys on the water-proof keypad• Multilingual menus and help screens• USB connection to a personal
computer
Dimensions: 103 × 207 × 37 mm (4.1 × 8.1 × 1.4 in)
Operating temperature: 0…40 °C (32…104 °F)
Weight: 310 g (10.9 oz) w/o batteries
Warranty: 2 years
RigExpert AA-55 ZOOM is made in Ukraine.
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Annex 1Specifications
RigExpert AA-55 ZOOM
Never connect the analyzer to your antenna in thunderstorms. Lightning strikes as well as static discharge may kill the operator.
Never leave the analyzer connected to your antenna after you fin-ished operating it. Occasional lightning strikes or nearby trans-mitters may permanently damage it.
Never inject RF signal or DC voltage into the antenna connector of the analyzer. Do not connect it to your antenna if you have active transmitters nearby.
Avoid static discharge while connecting a cable to the analyzer. It is recommended to ground the cable before connecting it.
Do not leave the analyzer in active measurement mode when you are not actually using it. This may cause interference to nearby receivers.
If using a personal computer, first connect the cable to the antenna connector of the analyzer, then plug the analyzer to the computer USB port. This will protect the analyzer from static discharges.
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Annex 2Precautions
User’s manual
Cable loss
To measure the loss in a coaxial cable,
connect a piece of a cable to the antenna
connector of the analyzer. Make sure
the far end of the cable is open circuited.
Press (OK) to start.
Next, short circuit the far end of the cable
and press (OK) to continue.
Once the analyzer finishes the
measurement, you will see the Loss
versus frequency chart. Use (Left)
and (Right) cursor keys to change
frequency and watch the loss value in
decibels at the bottom of the analyzer’s
screen.
To see the list of other keypad shortcuts,
press the (Help) key.
For the quick access to the the Tools menu, press the + key combination.
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Annex 3Tools menu
RigExpert AA-55 ZOOM
Cable impedance
To measure the characteristic
impedance, use a piece of an open
circuited cable: a half of a meter (or a
foot) or longer should be fine. Press
(OK) to start.
Next, the far end of the cable should
be short circuited. Press (OK) to
continue.
There are several reasons why the
resulting chart does not look smooth,
so we need to use (Left) and
(Right) cursor keys to find the location
where the impedance is stable. The
result is shown at the bottom left corner
of the screen.
Use + (Up) and +
(Down) key combinations to change the
scale, if needed.
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User’s manual
Self tests
There are several built-in self tests in the
AA-55 ZOOM analyzer, which can be run
by the user to make sure the analyzer is
working properly.
Make sure all cables or adapters
are disconnected from the antenna
connector of your analyzer, then press
(OK) to start the first test (Detector
test).
You should see the “Passed” message in
case of success.
Continue with two more tests: the second
(Built-in filter test) and the third (Test
with load). For the third test, make sure
to connect a good 50 Ohm load directly
to the analyzer’s antenna connector.
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RigExpert AA-55 ZOOM
For the quick access to the Setup menu,
press the + key combination.
There are several settings in the Setup menu:
• Language – select a language for the analyzer’s menus
• Palette – choose a color scheme• Battery – select a power consumption
scheme
• Sound – select sound volume• Sys. imp. – select system impedance
(25, 50, 75 or 100 Ohm) which affects SWR and return loss readings.
• Units – select metric (meters) or imperial (feet) units
• Bands – select region for highlighting of radio amateur bands
• Cable vel. factor – choose a velocity factor of the coaxial cable for the TDR mode
• Freq. corr. – frequency correction of the analyzer’s oscillator
• Data points – select a number of data points for each frequency sweep
• Reset settings – reset the analyzer to factory defaults
• Clear saved charts – clear all memory slots
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Annex 4Setup menu
User’s manual
Although RigExpert AA-55 ZOOM is designed for high performance without any
calibration, an open-short-load calibration may be applied for better precision.
The standards used for calibration should be of high quality. This requirement is
especially important for high frequencies. Three different calibration standards should
be used: an “open”, a “short” and a “load” (usually, a 50-Ohm resistor). A place where
these standards are connected during calibration is called a reference plane. If the
calibration is done at the far end of a transmission line, parameters of this line will be
subtracted from measurement results and the analyzer will display “true” parameters
of a load.
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Annex 5Calibration
RigExpert AA-55 ZOOM
To perform an open-short-load
calibration, select Calibrate in the Main
menu (or just press the + key
combination).
Following the instructions on the screen,
connect “open“, “short“ and “load“
calibration standards to the antenna
connector of the analyzer.
You may connect calibration standards to the far end of a cable, so the cable
will be “nulled”.
To apply calibration, press the
+ key combination in any
measurement mode. The “CAL“ mark will
appear at the bottom left corner of the
screen.
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Copyright © 2016 Rig Expert Ukraine Ltd.
“RigExpert” is a registered trademark of Rig Expert Ukraine Ltd.
Made in Ukraine
Doc. date: 15-Aug-2016
http://www.rigexpert.com